Blog

Bob Ezell joins WhiteOptics as Director of Engineering to lead new technology development for light guide and micro-structured optic product lines New Castle, Delaware – August 20, 2018: WhiteOptics has announced Bob Ezell as their new Director of Engineering. Mr. Ezell, former Senior Engineering Manager, Rambus Lighting Division, will work with the WhiteOptics engineering team

WhiteOptics® is excited to introduce our new Asymmetric Linear Prism Film, DFLB-20. Designed for Display and Lighting applications where asymmetric light bending is required, DFLB-20 Can be used with collimated and diffused sources to create asymmetric “wall wash” distributions. Speak to your WhiteOptics® sales representative to learn more or click here.

WhiteOptics® was proud to display our full catalog of products at the 2018 Guangzhou International Lighting Exhibition this past week at the China Import and Export Fair Complex. Partnering with our team at WhiteOptics® Asia Pacific®, we were excited to receive such a positive reception for our new prototype technologies, as well as continued enthusiasm

WhiteOptics® had a successful showing at LightFair International 2018 this past week in Chicago. Highlighting our new technologies like Patterned Glare Reduction and Linear Beam Control, we were excited to showcase our latest innovations to the rest of the lighting industry. In addition, we were proud to unveil some of our up and coming prototype

WhiteOptics® has created a new ultra-durable, cost effective, high diffuse reflectance metal composite with matte finish that sets a new standard at the crossroads of lighting and budget efficiency. With its ability to be processed in the same manner as pre-paint metals, and it’s use of WhiteOptics® patented diffusion surface, you can now achieve the

February 28th – March 2nd at the Anaheim Convention Center, Booth 428 Along with our full line of reflector and micro-structured optic materials, WhiteOptics will be presenting LIO™ (Linear Integrated Optic). LIO helps control light distribution with an astounding >96% optical efficiency, and can be adapted for a variety of potential patterns. This creates flexibility